Post on 04-Oct-2020
42B13NE2002 2.20567 BYNG 010
GEOPHYSICAL REPORTFOR
BYNG PROPERTIES INC.ON THE
BYNG PROPERTY l BYNG TOWNSHIP PORCUPINE MINING DIVISION NORTHEASTERN, ONTARIO
Prepared by: J.C.Grant, CET, FGAC September, 2000.
TABLE OF CONTENTS
INTRODUCTION.PAGE
....l
PROPERTY LOCATION AND ACCESS. .1
CLAIM BLOCK.
PERSONNEL.
GROUND PROGRAM.
MAGNETIC SURVEY.........................................................................................................2,3
HLEM SURVEY...................................................................................................................3
SURVEY RESULTS............................................................................................................3,4,5
CONCLUSIONS AND RECOMMENDATION....................................................................5,6
CERTIFICATE ,, rj
APPENDICES: A: SCINTREX, ENVI MAG SYSTEM ,, ' t:j "J "B: APEX PARAMETRICS, MAXMINIFSVSTEM
LIST OF FIGURES: l. LOCATION MAP2. PROPERTY LOCATION MAP3. CLAIM MAP
POCKET MAPS: CONTOURED TOTAL FIELD MAGNETIC SURVEY PROFILED HLEM, 1777HZ MAP PROFILED HLEM, 444 HZ MAP
42B13NE2002 2.20567 BYNG 010C
r
Page l
INTRODUCTION:
The services of Exsics Exploration Limited were retained by Mr. G. Lecours on behalf of the company, Byng Properties Inc., to complete a detailed line cutting and ground geophysical program across their claim blocks located in the southwest section of Byng Township.
The purpose of this ground program was to locate and outline a geological horizon which would be considered a favorable target for base metal deposition. The program commence on the 2nd of July with the line cutting and the second phase was completed on the 11* of September with the completion of the magnetic and HLEM survey. In all, a total of 69.5 kilometers of grid lines were cut and surveyed across the claim block.
PROPERTY LOCATION AND ACCESS:
The Byng Property is situated in the central southwest section of Byng Township which is part of the Porcupine Mining Division , Northeastern, Ontario. Figure 1. More specifically the block is situated north of Byng Creek and about 6 kilometers west of Brunswick Lake. A small pond is situated in the central section of the claim group. The entire claim block is situated approximately 120 kilometers south of the Town of Hearst. Figures l and 2.
Access to the property during the survey period is ideal. There is a series of good gravel roads that travel south from the Town of Hearst and provide good access to a number of Township to the south of which Byng is one. These gravel roads are being maintained by logging operations which are currently active in and around Byng Township and one of these ingress roads provides access to the landing on Brunswick Lake which is about 6 kilometers southeast of the grids east boundary. This particular gravel road crosses the cut grid in an east-west to southeast-northwest direction and provides excellent access to most of the cut survey lines. Traveling time from Hearst to the property is about 1.5 hours. Figure 2.
CLAIM BLOCK:
The claim numbers that make up the Byng Property are as follows.P-1241373............10 unitsP-1241386............10 unitsP-1230140............15 units.
Refer to Figure 3, copied from MNDM Plan Map, G-2294, Byng Township for the location of the claims within the block.
EASTMAN
FORT ALBANY
ONTARIO MODSDNEf QUEBEC
i GERALTDNCH1BOUGAMAU
THUNDER BAY
PROPERTY XLOCATION f
TIMMINS
QUEVILLON
'SENNETERRE
ROUYN A VALOOR NORANDA W V"-UJK
MONTREAL
LK MICHIGA
DNTARID
EXSICS EXPLORATION LTD.P.O. Box 1880, P4N-7X1Suite 13, Hollinger Bldg, Timmins Ont.Telephone: 705-267-4151, 367-3424___^__
CLIENT: BYNG PROPERTIES INC.N PROPERTY' BYNG TOWNSHIP PROPERTY
TITLE: BYNG TOWNSHIP
LOCATION MAP Fig, lDate: SEPT..2000 Scale:! ^ 25miles l NTS:Drawn: J. C. GRANT Interp: J.C.Grant l Job No.:E-385
Pu-'k'Jra S' "^ f aPltSK ITAj V"
-*J~"^
HAYW^ RD S5' fem ""*;lfc l X Si*v^ ^Cs/ ftao/rfs \ \
^Barrel Rigid tun Rapids
EXSICS EXPLORATION LTD.P.O. Box 1880, P4N-7X1Suite 13, Hollinger Bldg, Timmins Ont.Telephone: 705-267-4151, 267-3424^_____
CLIENT: BYNG PROPERTIES INC.PROPERTY: BYNG TWP. PROPERTYTITLE: BYNG TOWNSHIP
CLAIM SKETCH Fig. 2Date: AUG..2000Drawn: J. C. Grant
Scale: 1:20.OOP NTS:Interp: J.C.Grant Uob No.:E-385
P-1241373
10 UNITS
ROADS ^ ̂ ̂
P-1230140
15 UNITS
EXSICS EXPLORATION LTD.P.O. Box 1880, P4N-7X1Suite 13, Hollinger Bldg, Timmins Ont.Telephone: 705-367-4151, 267-2424^^^^^
CLIENT: BYNG PROPERTIES INC.N PROPERTY: BYNG TWP. PROPERTY
TITLE: BYNG TOWNSHIP
CLAIM SKETCH Fig. 3Date: AUG..2000 Scale: 1:20.OOP NTS:Drawn: J. C.Grant Interp: J.C.Grant l Job No.:E-385
Page 2
PERSONNEL:
The field crew directly responsible for the collection of the raw magnetic and HLEM data were as follows.
E. Jaakkola............................Timmins, OntarioA. Chaumont.........................Timmins, OntarioR. MacRae............................Timmins, OntarioJ. DerWeduwen.....................Timmins, Ontario
The ground program was completed under the direct supervision of J.C.Grant and all of the plotting and compilation was completed by Exsics Exploration Limited's In-house staff.
GROUND PROGRAM:
The ground program was completed in two phases. The first phase was to establish a detailed metric grid across the property using lines spaced 100 meters apart that were turned off of a base line that was first cut west to east across the center of the claim block. These cross lines commenced on the western border with line 1400MW and were cut and chained to line 1400ME which represented the eastern boundary of the claim block. All of theses cross lines were then cut to the north and south limits of the claim group. Three tie lines were also cut parallel to the base line, TL 900MN, TL 500MS and TL 1000MS all of which were cut from line 1400MW to and including 1400ME. In all, a total of 69.5 kilometers of grid lines were established across the property and all of the lines were chained with 25 meter station intervals.
Upon the completion of the line cutting, a detailed, Total Field Magnetic survey was done in conjunction with an HLEM survey across all of the cut lines. The magnetic survey was done using the Scintrex, Envi Mag system. Specification for this unit can be found as Appendix A of this report. The HLEM survey was completed using the Apex Parametrics, MaxMin II system. Specifications for this system can be found as Appendix B of this report.
The following parameters were kept constant throughout the two surveys.
MAGNETIC SURVEY:Line spacing..........................100 metersStation spacing...................... 25 metersReading Interval.................... 25 metersDiurnal Monitoring................ base station recorderRecord interval...................... 30 secondsReference field...................... 58,060 gammasDatum subtracted.................. 58,000 gammasUnit accuracy........................ +/-0.1 gamma
PageS
Upon the completion of the magnetic survey, the collected data was corrected through the base station data to eliminate diurnal variances and the data had a background of 58,000 removed from each corrected reading for ease in plotting purposes only. The corrected and leveled data was then plotted directly onto a base map at a scale of 1:5,000 and then the data was contoured at 50 gamma intervals where ever possible. A copy of this contoured base map is included in the back pocket of this report.
HLEM SURVEY:Line spacing..........................100 metersStation spacing..................... 25 metersReading interval................... 25 metersCoil separation..................... 150 metersTheoretical search depth..... 75 to 95 metersFrequencies recorded......... 1777Hz, 444HzParameters measured......... In phase and quadrature components of the secondary field
Once the HLEM survey was completed, the collected data was also plotted onto base maps at a scale of 1:5000, one such base map for each frequency, and then the data was profiled at lcm to +I-lQ/%. All conductive zones outlined during the survey were then placed on these base maps and the 444Hz frequency was interpreted for depth and conductivity for each zone. A copy of these base maps is also included in the back pocket of this report.
SURVEY RESULTS
The magnetic survey was successful in outlining a number of geological trends across the property. A number of these magnetic units strike east-west to northwest-southeast and continue off of the grid in both directions. The most predominant magnetic structures are situated across the southern section of the property and at this time appear to relate to iron rich formations.
The HLEM survey was also successful in outlining a number of conductive zones across the grid. Each of these zones have been labeled and each will be discussed separately and in detail. All of the zones will be correlated to the magnetic results and will include their depths to source and conductivity.
Page 4
ZONE A:
This conductor strikes from line 0+00 and continues to and including line 400MW. The zone is open to the east but the location of the pond stopped further interpretation. This zone is situated at a depth of 65 to 85 meters and has good conductivity of 5 to 27 mhos. The zone correlates to a modest magnetic high unit which is represented by a narrow mag high situated between magnetic lows.
This zone may extend as far as line 600MW but it appears to have been offset and or faulted to the northwest. This offset zone has been labeled Zone A' and it correlates directly to the southern flank of a good magnetic high unit. This zone is situated at a depth of 95 meters and has a conductivity range of 24 to 27 mhos.
ZONES:
This conductor represents one of the strongest zones on the grid. It strikes from line 1100MW to 1400MW and continues off of the grid to the west. In fact if is getting stronger as it strikes off of the grid to the west. The zone is situated at a depth of 75 to 55 meters and it has a conductivity range of 7 to 48 mhos. This target appears to be dipping slightly north to near vertical.
The zone lies at the southern flank of a narrow magnetic high unit that is also getting stronger as it strikes off of the grid to the west. This zone may be a continuation of conductive zone C which strikes further to the east but on strike with Zone B.
ZONE C;
This conductor can be traced from line 500MW to 100ME and may extend as far as line 600ME. The zone lies at depth of 60 to 82 meters and has a conductivity range of 13 to 35 mhos.
The zone correlates to a good narrow magnetic high unit that is thought to represent an iron rich formation that is quite evident in the magnetic survey and can be followed across the entire southern section of the grid.
ZONED:
This zone can be traced from line 400ME to 700ME and lies at a depth of 87 to 93 meters and it has a modest conductivity of 5 to 8 mhos. Again, the zone appears to lie on the northern flank of a broad magnetic high unit that is part of the large magnetic high unit that covers the southern section of the property.
PageS
ZONE E:
This zone represents a weak conductor striking across lines 500MW to 200MW. The zone is quite deep but it does correlate to a good narrow magnetic high unit that appears to be an isolated mag target situated between lines 500MW and 200MW and does not have the same signature as the iron rich unit to the south. This may however be due to the depth of the target.
ZONE F:
This zone can be traced from line 100ME to 3 DOME and continues off of the grid to the south. The zone is best represented on the l DOOMS tie line which may suggest that the strike of the zone is more north-south and east-west.
The western extension of the zone strikes into a good magnetic high which may be part of the iron rich mag unit. However, the eastern and southern extensions appear to relate to a modest magnetic low unit that follows the southern end of line 300ME.
The magnetic survey was quite successful in outlining and mapping the geological characteristics of the property. The high magnetic units may relate to iron rich units which appear to undulate in depth across the property. These units in turn appear to have been faulted and or folded in places along their strike length. There is also areas of minor shearing which is evident in minor offsets in the magnetic trends.
Generally, the strike of the underlying geology is east-west to southeast-northwest. This strike direction is generally confirmed in the strike of the corresponding HLEM conductors.
CONCLUSIONS AND RECOMMENDATIONS:
Generally, the ground program was successful in locating and outlining a number of conductive horizons across the property. These conductive zones all appear to relate to legitimate bedrock conductors of which most are within the search depth capabilities of the survey.
At this writing, conductive zones A, A', B and C represent the best and strongest targets on the property. Zone A is a well define target which can easily be drilled based on these results. If a hole is to be considered, it should be spotted on line 100MW and on the north side of the zone.
Zone C is also well defined and should be drill tested. Should a hole be considered, then it should be spotted on line 300MW and to the north of the zone.
Page 6
Conductive zone B is a good target as well but it is open to the west and it appears to be getting stronger to the west. A drill hole could be spotted on line 1400MW but further follow up should be considered to the west to better define the strike length and direction.
Also Zone F should be followed up further as it also strikes off of the grid to the south and appears to be getting stronger to the south.
Zones D and E are considered lower priority at this writing only because they appear to be situated at a depth too deep for the present survey capabilities.
Should any of the proposed drilling be initiated and positive results are encountered then all of the zones will have to be reconsidered for either drilling and or further follow up surveys.
I would also recommend a detailed geological survey be carried out across the cut grid to map in the exposed out crops and possibly to verify exposed conductive zones.
Respectfully submitted
J.C.Grant, GET, FGAC September, 2000
CERTIFICATE
I, John C. Grant, hereby certify that:
1) I am a graduate technologist, (1975) of the three year program in Geological Technology at Cambrian College of Applied Arts and Technology, Sudbury Campus. I have worked subsequently as an Exploration Geophysicist for Teck Exploration Limited, (5 years), North Bay office and currently as Exploration Manager and Geophysicist for Exsics Exploration Limited since 1980.
2) I am a member in good standing of the Certified Engineering Technologist Association,(GET), since 1984
3) I am a Fellow of the Geological Association of Canada, (FGAC) , since 1986.
4) I have been actively engaged in my profession since May of 1975, including all aspects of exploration studies, surveys and interpretation.
5) I have no specific or special interest in the described property. I have been retained as a Consulting Geophysicist by the Property holders. "~
John Charles Grant, GET, FGAC.
APPENDIX A
ENVI-MAG Ehvironmental Magnetometer/Gradiometer
Locating Buried Drums and Tanks? Main features include:ie ENVI-MAG is the solution to this
b.wironmental problem. ENVI-MAG is an inexpensive, lightweight, portable
VALKMAG" which enables you to surveyrge areas quickly and accurately.
ENVI-MAG is a portable, proton precession ~agnetometer and/or gradiometer, for^technical, archaeological and environ
mental applications where high produc tion, fast count rate and high sensitivity
e required. It may also be used for other . ^plications, such as mineral exploration, and may be configured as a total-field
agnetometer, a vertical gradiometer ori a base station.
The ENVI-MAGeasily detects buried drums to depths of 10 feet or more
* more sensitive to the steel of a buried drum than EM or radar much less expensive than EM or radar
* survey productivity much higher than with EM or radar
* select sampling rates as fast as 2 times per second
* "WALKMAG" mode for rapid acquisition of data
* large internal, expandable memory
* easy to read, large LCD screen displays data both numerically and graphically
* ENVIMAP software for processing and mapping data
ENVI-MAG comprises several basic modules; a lightweight console with a large screen alphanumeric display and high capacity memory, a staff mounted sensor and sensor cable, rechargeable battery and battery charger, RS-232 cable and ENVIMAP processing and mapping software.For gradiometry applications an upgrade kit is available, comprising an additional processor module for installation in the console, and a second sensor with a staff extender.
ENVI-MAG Proton Magnetometer In operation
For base station applications a Base Station Accessory Kit is available so that the sensor and staff may be converted into a base station sensor.
Matures and Benefits.VALKMAG"
Magnetometer/Gradiometer" ie "WALKMAG" mode of operation sometimes known as "Walking Mag") is user-selectable from the keyboard. In this i Dde, data is acquired and recorded at f 3 rate of 2 readings per second as the operator walks at a steady pace along a line. At desired intervals, the operator ' iggers" an event marker by a single key L..oke, assigning coordinates to the recorded data.* ue Simultaneous GradiometerK. i optional upgrade kit is available to configure ENVI-MAG as a gradiometer to i ike true, simultaneous gradiometer i jasurements. Gradiometry is useful for geotechnical and archaeological surveys where small near surface magnetic 1 gets are the object of the survey.Selectable Sampling RatesO 5 second, 1 second and 2 second r ading rates user selectable from the keyboard.
Large-Key KeypadThe large-key keypad allows easy access for gloved-hands in cold-weather opera tions. Each key has a multi-purpose function.
Front panel of ENVI-MAG showing a graphic profile of data and large-key keypad
Large Capacity MemoryENVI-MAG with standard memory stores up to 28,000 readings of total field meas urements, 21,000 readings of gradiometry data or 151.000 readings as a base station. An expanded memory option is available which increases this standard capacity by a factor of 5.
Easy Review of DataFor quality of data and for a rapid analysis of the magnetic characteristics of the survey line, several modes of review are possible. These include the measure ments at the last four stations, the ability to scroll through any or all previous readings in memory, and a graphic display of the previous data as profiles, line by line. This feature is very useful for environ mental and archaeological surveys.
Highly ProductiveThe "WALKMAG- mode of operation acquires data rapidly at close station intervals, ensuring high-definition results. This increases survey productivity by a factor of 5 when compared to a conven tional magnetometer survey.
"Datacheck" Quality Control of Data"Datacheck" provides a feature wherein at the end of each survey fine, data may be reviewed as a profile on ENVI-MAG's screen. Datacheck confirms that theinstrument is functioning correctly and
allows the user to note the magnetic relief (anomaly) on the line.
Large Screen Display"Super-Twist" 64 x 240 dot (8 lines x 40 characters), LCD graphic screen provides good visibility in all light conditions. A display heater is optionally available for low-temperature operations below (PC.
Close-up of the ENVI-MAG screen showing data presented after each reading
Interactive MenusThe set-up of ENVI-MAG is menu-driven, and minimizes the operator's learning time, and on-going tasks.
Close-up of display of ENVI-MAG showing interactive set-up menu
Rechargeable Battery and Battery ChargerAn "off-the-shelf lead-acid battery and charger are provided as standard. The low-cost "Camcorder" type battery is available from electronic parts distributors everywhere.
HELP-Une AvailablePurchasers of ENVI-MAG are provided with a HELP-Une telephone number to call in the event assistance is needed with an application or instrumentation problem.
ENVIMAP Processing and Mapping SoftwareSupplied with ENVI-MAG, and custom designed for this purpose, is easy-to-use, very user-friendly, menu driven data processing and mapping software called ENVIMAP. This unique software appears to the user to be a single program, but is in fact a sequence of separate programs, each performing a specific task. Under the menu system, there are separate programs to do the following:a) read the ENVI-MAG data and reformat tt into
a standard compatible with the ENVIMAP software
b) grid the data into a standard grid formatc) create a vector file of posted values
with line and baseline identification that allows the user to add some title information and build a suitable surround
d) contour the gridded datae) autoscale the combined results of the
posting/surround step and the contouring step to fit on a standard 8.5 ins. wide dot- matrix printer
f) rasterize and output the results of step e) to the printer
ENVIMAP is designed to be as simple as possible. The user is required to answer a few basic questions asked by ENVIMAP, and then simply toggles "GO" to let ENVIMAP provide default parameters for the making of the contour map. The user can modify certain characteristics of the output plot ENVIMAP'S menu system is both keyboard and mouse operable. HELP screens are integrated with the menu system so that HELP is displayed when ever the user requests it.
Options Available* True simultaneous gradiometer
upgrade* Base station upgrade* Display heater for low
temperature operations* External battery pouch
SpecificationsTotal Held Operating Range 20.000 to 100,000 nT (gammas)
Total Field Absolute Accuracy
Sensitivity0.1 nT at 2 second sampling rate
TuningFully solid state. Manual or automatic, key board selectable
Cycling (Reading) Rate*0.5, 1 or 2 seconds, up to 9999 seconds for base station applications, keyboard selectable
Gradiometer OptionIncludes a second sensor, 20 inch (Vim) staff extender and processor module
"WALKMAG" Mode0.5 second for walking surveys, variable rates for hilly terrain
Digital Display-CD "Super Twist", 240 x 64 dots graphics,8 line x 40 characters alphanumeric^
display Heaterrhermostatically controlled, for cold weather operations
Keyboard Input1 7 keys, dual function, membrane type
Notebook Function32 characters, 5 user-defined MACRO'S for juick entry
Standard MemoryTotal Reid Measurements: 28,000 readings Gradiometer Measurements: 21.000 readings Base Station Measurements: 151.000 readings
Expanded MemoryTotal Field Measurements: 140,000 readings Gradiometer Measurements: 109,000 readings Base Station Measurements: 750,000 readings
Real-Time ClockRecords full date, hours, minutes and seconds with 1 second resolution, W-1 second stability over 12 hours
Digital Data OutputRS-232C interface, 600 to 57.600 Baud, 7 or 8 data bits, 1 start, 1 stop bit, no parity format. Selectable carriage return delay (0-999 ms) to accommodate slow peripherals. Handshaking IsdonebyX-on/X-off
Analog OutputO - 999 mV full scale output voltage with keyboard selectable range of 1,10,100,1,000 or 10,000 nT full scale
Power SupplyRechargeable "Camcorder" type. 2.3 Ah, Lead- acid battery.12 Volts at 0.65 Amp for magnetometer, 1.2 Amp for gradiometer,External 12 Volt input for base station operations Optional external battery pouch for cold weather operations
Battery Charger110 Volt - 230 Volt, 50/60 Hz
Operating Temperature Range Standard O8 to 60"C Optional -40"C to 60"C
DimensionsConsole -10 x 6 x 2.25 inches
(250 mm x 152 mm x 55 mm)T.F. sensor - 2.75 inches dia. x 7 inches
(70 mm x 175mm)Grad. sensor and staff extender - 2.75 inches
dia. x 26.5 inches (70 mm x 675 mm)T.F. staff -1 inch dia. x 76 inches (25 mm x 2 m)
WeightConsole - 5.4 Ibs (2.45 kg)
with rechargeable battery T. F. sensor - 2.2 Ibs (1.15 kg) Grad. sensor - Z5 Ibs (1.15 kg) Staff-1.75 Ibs (0.8 kg)
HMd Office222 Snidercroft RoadConcord, Ontario, Canada UK IBSTelephone: (905)669-2280Fax: (905) 669-6403 or 669-5132Telex: 06-964570
In the USA:Sdntrex Inc.85 River Rock DriveUnit 202Buffalo, NY 14207Telebhone: (716)298-1219Fax: (716)298-1317
Four Magnetometers in One
Self Correcting for Diurnal variations
Reduced instrumentation Requirements
2507o weight Reduction
user Friendly Keypad operation
universal Computer interface
Comprehensive software Packages
SpecificationsDv^amic Range......................... 18,000 to 110,000 gammas. Roll-over display feature
suppresses first significant digit upon exceeding 100,000 gammas.
Tuning Method ......................... Tuning value is calculated accurately utilizing a speciallydeveloped tuning algorithm
t\( omatic Fine Tuning................... 1596 relative to ambient field strength of last storedvalue
Display Resolution....................... 0.1 gammaT zessing sensitivity.................... o.02 gammaSt istical Error Resolution................ 0.01 gammaAbsolute Accuracy ...................... 1 gamma at 50,000 gammas at 23"C
± 2 gamma over total temperature range 3t idard Memory Capacity
)tal Field or Gradient ................. 1,200 data blocks or sets of readingsTie-Line Points ........................ 100 data blocks or sets of readingsBase Station.......................... 5,000 data blocks or sets of readings
Di lay........ - - - - - - - - - - - - Custom-designed, ruggedized liquid crystal display with anoperating temperature range from -400C to + 55 0 C. The display contains six numeric digits, decimal point, battery status monitor, signal decay rate and signal amplitude monitor and function descriptors.
8 32 Serial I/O interface................. 2400 baud, 8 data bits, 2 stop bits, no parity:radient Tolerance ...................... 6,000 gammas per meter (field proven)re"" Mode ............................. A. Diagnostic testing (data and programmable memory)
B. Self Test (hardware) 5e,bor .. -.... -.. - - - - - - - - - - - - - Optimized miniature design. Magnetic cleanliness is
consistent with the specified absolute accuracy. jf l ient Sensors........................ 0.5 meter sensor separation (standard), normalized to
gammas/meter. Optional 1.0 meter sensor separation available. Horizontal sensors optional,
sensor Cable ........................... Remains flexible in temperature range specified, includesstrain-relief connector
V ng Time (Base Station Mode) .......... Programmable from 5 seconds up to 60 minutes in 1second increments
jpprating Environmental Range .......... -400C to *55 0 Q 0-i000Xo relative humidity; weatherproofH3 er Supply .......................... Non-magnetic rechargeable sealed lead-acid battery
cartridge or belt; rechargeable NiCad or Disposable battery cartridge or belt; or 12V DC power source option for base station operation,
la sry Cartridge/Belt Life................ 2,000 to 5,000 readings, for sealed lead acid power supply,depending upon ambient temperature and rate of readings
Ve'ihts and Dimensionsl itrument Console Only . . 2.8 kg, 238 x 150 x 250mm NiCad or Alkaline Battery Cartridge .. 1.2 kg, 235 x 105 x 90mm NiCad or Alkaline Battery Belt . .. 1.2 kg, 540 x 100 x 40mm l ad-Acid Battery Cartridge . .. 1.8 kg, 235 x 105 x 90mm l ad-Acid Battery Belt .... . . 1.8 kg, 540xiOOx40mmSensor .............................. 1.2 kg. 56mm diameter x 200mm E D A mstruments me.Cldient Sensor , 4 Tnorncliffe Park Drive
i.S m separation-standard) .. . . 2.1 kg, 56mm diameter x 790mmC. ad ient Sensor tele* oe 23222 EDA TOR
(1.0 m separation-optional) ... ... 2.2 kg, 56mm diameter x 1300mm cable: instruments Torontoa dard system Complement ........... instrument console; sensor; 3-meter cable, aluminum
sectional sensor staff, power supply, harness assembly, LnoUxsiA ~nnprat-innc m-n . , a i EDA instruments inc.operations manual. 51 51 Wara RoacjBase Station Option.................... standard system plus 30 meter cable wheat Ridge, ColoradoC Jdiometer option ................... standard system plus 0.5 meter sensor 1303*422 9112
Printed in canada
APPENDIX B
JV5 AX3V5 HIV!
a Five frequencies: 888, 444, 888, 1777 and 3555 Hz.
3 Maximum coupled C horizontal-loop 3 operation with reference cable.
3 Minimum coupled operation with reference cable.
3 Vertical-loop operation without reference cable.
3 Coil separations: 85, 50,100,150, 8OO and 85Qm C with cable 3 or 1OO, 800,300,400, BOO and BOO ft.
3 Reliable data from depths of up to ISO m C BOO ft 3.
l Built-in voice communication circuitry with cable,
a Tilt meters to control coil orientation.
••rf,;^ -f*\^fei''Sff!fp^' :4;Vx-^:;x^t*#,'^..,.r,'^ - ~S^J' ^ --"" '-••--- ' .'J- l.'-, -- - -n-jf. —
'^^•r --mt'^^
:fSj^iSii^^i::? :v- ':t^j^"
r-*-*^,.;.
*?;-;.vs:TV^^
^st:yi^
"*P!
-H?F
^^ifr,?;*^-^'-"-' ;^i-^
icar-*;-, c. ^.a-irc-icr.
sil Seoaratiuns:
Scaie
222, 44A, SSB, 1777 and 3555Hz.
MAX: Transmitter coil plane and re ceiver coil plane horizontal CMax-coupled; Horizontal-loop model. Used with refer, cable.
MIN: Trsnsmitter coil plane horizon tal and receiver coil plane ver tical (Min-coupled model. Used with reference cable.
V. L. : Transmitter coil plane verti cal and receiver coil plane hori zontal CVertical-loop model. Used without reference cable , in parallel lines.
25,5O.1OO,15O,2OO S 25Om CMMID or 1OO. 2OO, 3OO, 4OO.BOO and BOO ft. CMMUR. Coil separations in VL.mode not re stricted to fixed values.
Parameters Read: -
P. s E a E --': i i "
In-Phase and Quadrature compo nents of the secondary field i n MAX and M IN modes.Tilt-angle of the total field in VL. mode .
- Automatic, direct readout on 3O mm C3.5"3 edgewise meters in MAX and MIN modes. No null ing or compensation necessary .
- Tilt angle and null in SOmm edge wise meters in VL.mode.
In-Phase: *SOy..±1OOl4 by push button switch .
Quadrature: ±2O*.±1Oar. by push button switch .
Tilt: *75V. slope.NullCVLJ: Sensitivity adjustable
by separation switch.
In-Phase and Quadrature: O.25 V. to O.5 V. ; Tilt: 1V. .
CT:-- .ir.;
±O.25'54to±1 0Xo normally, depending on conditions, frequencies and coil separation used .
- 222 Hz : 22OAtma- 44.4-Hz : 2OO Atm2- BSBHz : 12OAtm2- 1777 Hz : BO Atm2- 3555 Hz : 3D Atm2
9V trans, radio type batteries t^). Life: approx. 35hrs. continuous du ty (alkaline , O.5 Ah), less in cold weather.
12V B Ah Bel- type rechargeable battery. CCharger supplied].
Light weight 2- conductor teflon cable for minimum friction. Unshield ed. All reference cables optional at extre cost. Please specify.
Built-in intercom system for voice communication between re ceiver and transmitter operators in MAX and MIN modes, via re ference cable .
Built-in signal and reference warn ing lights to indicate erroneous readings .
to+SO'C t-
Bkg C 13 IDS. D
13kg C S3 IDS.]
Typically SOkg C135lbs. D, depend ing on quantities of reference cable and batteries included . Shipped in two field/shipping cases .
Specifications subject to cnange without: notification
II.-TP A R A Tiff 52OO STEELCASE nD. E., MARKHAM, ONT, CANADA, L3H 1C32
Phone: 435-1B12 Cables: APEXPARA TORONTO Telex: OB-SBB773 NORDVIK TOR
Ministry olNorthern Developmentand Mines
Declaration of Assessment Work Performed on Mining LandMining Act, Subsection 65(2) and 66(3), R.S.O. 1900
Transaction Number (office use)
Assessment Files Research Imaging
subsections 65(2) and 66(3) of the Mining Act. Under section 8 of the view the assessment work and correspond with the mining land holder, iecorder, Ministry of Northern Development and Mines, 6th Floor,
42B13NE2002 2.20567 BYNG 900Instructions: - For work performed on Crown Lands before recording a claim, use form 0240.
- Please type or print in ink.J
1. Recorded holder(s) (Attach a list if necessary)Name
Address ^
t/es/zfi- ((2-^,?Name
Address
Client Number ^ /~
Telephone Number
Fax Number
Client Number
Telephone Number
Fax Number
^
2. Type of work performed: Check ( ** ) and report on only ONE of the following groups for this declaration.
Geotechnical: prospecting, surveys, assays and work under section 18 (regs) D Physical: drilling, stripping,
trenching and associated assays | | Rehabilitation
Work Type ^ ̂ ~ ̂ rr ̂ ̂ SrtSf^Z- 7 ,f 5, ^
//cc?-m -O/sVcr'r'i; XAOT* f ste^/eLrs .
Dates Work c — . Tn Performed Ffom -) "? JeTn ~) ^ O f/ J-Ou*
-^ Day Month Year Day Monlh YearGlobal Positioning System Data (if available) Township/Area
2Pyv/- T^/*.M or G-Plarf Number
C~rW/
Office UseCommodity
Total S Value of so?^ , ^ Work Claimed # pfe (^'^
NTS Reference
Mining Division U r , n, . .r/sL&tft*-^Resident Geologist ~^r~ 1 ^~~~~~~~~~ District Lu*~tF?Z3:r\^^ ~ ,
Please remember to: - obtain a work permit from the Ministry of Natural Resources as requir- provide proper notice to surface rights holders before starting work;- complete and attach a Statement of Costs, form 0212;- provide a map showing contiguous mining lands that are linked for ass- include two copies of your technical report.
3. Person or companies who prepared the technical report (Attach a list if necessary)Name 1
lOSffi frW C - Lfj&J/^/? nAddress * S }
Name '
Address
Name
Address
Telephone Number
Fax Number
Telephone Number
Fax Number
Telephone Number ^^(SSSWIFllf
Fax Number |)l\\ i 3CP Bl 2000 p
4. Certification by Recorded Holder or Agent PORCUPINE MINING DIVISION^
1, -f^dtOfw C "- l/t/c-'&A/f , do hereby certify that 1 have personal knowledae of the facts set(Print Name)
forth in this Declaration of Assessment Work having caused the work to be performed or witnessed the same during or after its completion and, to the best of my knowledge, the annexed report is true. /J. i f)P.-....,....,-,-^..-.. ..,.. , ^/r—-^——^____^r^ Mt4*4^.^'WbSignature of Recorded Holder or Agent
'gent's Address
s -y r ^/^
Telephone Number
5. Work to be recorded and distributed. Work can only be assigned to claims that are contiguous (adjoining) to the r lining land where work was performed, at the time work was performed. A map showing the contiguous link must accompany this form. ~- f ~ ~-
Mining Claim Number. Or If work was done on other eligible mining land, show In this column the location number indicated on the claim map.
eg
eg
eg
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
TB 7827
1234567
1234568
f- /-X i 31^
(- /.94 nfkF- U3^Ho
Number of Claim Units. For other mining land, list hectares.
16 ha
12
2
lo
IV
|sr
Column Totals
Value of work performed on this claim or other mining land.
S26, 825
0
S 8, 892
S"ff"w. e t?S"Kfr- c r
———— j ———— : ——
j.1
Value of work applied to this claim.
N/A
$24,000
S 4,000
42,000*** ?t *co- si
^ ?,cco- cc
Sd^coo-**
Value of work assigned lo other mining claims.
S24,000
0 t.* /, .
0
Bank. Value ol work to be distributed at a future date.
S2.825, ^
i i i j ^0 \s
S4.892
* ~m--a isr-^*^\TV ot
* C ( 6rC?.^
l, f f- , do hereby certify that the above work credits are eligible under(Print Fulf Name)
subsection 7 (1) of the Assessment Work Regulation 6/96 for assignment to contiguous claims or for application to
the claim where the work was done.Signature of Re
———-——thorized in Writing?
6. Instructions for cutting back credits that are not approved.
Some of the credits claimed in this declaration may be cut back. Please check (you wish to prioritize the deletion of credits: L——-——* W
D 1. Credits are to be cut back from the Bank first, followed by option 2 or 3 or 4 as indicated.D 2. Credits are to be cut back starting with the claims listed last, working backwards; or
/8p 3. Credits are to be cut back equally over all claims listed in this declaration; orD 4. Credits are to be cut back as prioritized on the attached appendix or as
ihow how
Jote: If you have not indicated how your credits are to be deleted, credits will be cut back fro followed by option number 2 if necessary.
;or Office Use Only________________leceived Stamp ~ Deemed Approved Date
Date Approved
Dale Notification Sent
Total Value of Credit Approved
Ontario Minislry o)Northern Developmentand Mines
Statement of Costs for Assessment Credit
Transaction Number (office use)
ersonal information collected on this form Is obtained under the authority of subsection 6(1) of the Assessment Work Regulation 6/96. Under action 8 of the Mining Act, the information is a public record. This information will be used to review the assessment work and correspond with ie mining land holder. Questions about this collection should be directed to the Chief Mining Recorder, Ministry of Northern Development and 'ines, 6th Floor, 933 Ramsey Lake Road, Sudbury, Ontario, P3E 6B5.
Work Type
^S^-rr.JS
/tf.W&Tsf S *x ^
J . /7
— ) ^7 /x^ 6 fe'i
Units of WorkDepending on the type of work, list the number of hours/days worked, metres of drilling, kilo metres of grid line, number of samples, etc. -
/" y1 / -\ S s~\ , , H X/^ N^wV
/^- r x^,X/^ rX^7
s^ 0 ^"o /^"VV j
associated Costs (e.g. supplies, mobilization and demobilization).
Transportation Costs
Food and Lodging Costs
Cost Per Unit of work
^/V^/^r?
f .fr/fisr'
//^/^/
^' 4U. /V7 ———————
RTS|]D(
-PO
Total Value of Assessment Work J
Total Cost
fysJ'/?-^
f ̂ t/fr - '*-^^7T ^
^ ^^' -^x
jgggjjTO^lp(" V,^* F ^ s
a t^l ^^ ™ ^A^ —eP *1 2000 p
CUPINE MINING DIVISION
S^j^^r?- 76 -
Calculations of Filing Discounts: l rcp ? S 02- J f/ \\ otr t-^ /C'A Jk \. Work filed within two years of performance is claimed at 1000Xo of the above Total Value of Asge^eiMf 'J'vfcJkA . If work is filed after two years and up to five years after performance, it can only be alaftneri at flHtffif nf ynnrTTirnl
Value of Assessment Work. If this situation applies to your claims, use the calculationUieluWT " \JTOTAL VALUE OF ASSESSMENT WORK x 0 .50 - Total $ value of worked claimed.
ote:Work older than 5 years is not eligible for credit.A recorded holder may be required to verify expenditures claimed in this statement of costs within 45 days of a ?quest for verification and/or correction/clarification. If verification and/or correction/clarification is not made, the inister may reject all or part of the assessment work submitted.
ertlfication verifying costs:
*^^V ', . . ————— , do hereby certify, that the amounts shown are as accurate as may(please print full name) '
asonably be determined and the costs were incurred while conducting assessment work on the lands indicated on
e accompanying Declaration of Work form as ______ ?̂2i^\Jr
) make this certification.(recorded holder, agent, or state company position with signing authority)
l am authorized
Signature te
Ministry of Ministere duNorthern Development Developpement du Nordand Mines et des Mines Ontario
Geoscience Assessment Office 933 Ramsey Lake Road
October 26, 2000 6th FloorSudbury, Ontario
RITA MARIA LECOURS P3E 6B51301 PRINCE STREETHEARST, ONTARIO Telephone: (888)415-9845POL-1 NO Fax: (877)670-1555
Visit our website at: www.gov.on.ca/MNDM/MINES/LANDS/mlsmnpge.htm
Dear Sir or Madam: Submission Number: 2 .20567
Status Subject: Transaction Number(s): W0060.00380 Approval
We have reviewed your Assessment Work submission with the above noted Transaction Number(s). The attached summary page(s) indicate the results of the review. WE RECOMMEND YOU READ THIS SUMMARY FOR THE DETAILS PERTAINING TO YOUR ASSESSMENT WORK.
If the status for a transaction is a 45 Day Notice, the summary will outline the reasons for the notice, and any steps you can take to remedy deficiencies. The 90-day deemed approval provision, subsection 6(7) of the Assessment Work Regulation, will no longer be in effect for assessment work which has received a 45 Day Notice. Allowable changes to your credit distribution can be made by contacting the Geoscience Assessment Office within this 45 Day period, otherwise assessment credit will be cut back and distributed as outlined in Section #6 of the Declaration of Assessment work form.
Please note any revisions must be submitted in DUPLICATE to the Geoscience Assessment Office, by the response date on the summary.
If you have any questions regarding this correspondence, please contact LUCILLE JEROME by e-mail at lucille.jerome@ndm.gov.on.ca or by telephone at (705) 670-5858.
Yours sincerely,
ORIGINAL SIGNED BYSteve B. BeneteauActing Supervisor, Geoscience Assessment OfficeMining Lands Section
Correspondence ID: 15376
Copy for: Assessment Library
Work Report Assessment Results
Submission Number: 2.20567
Date Correspondence Sent: October 26, 2000______________________Assessor:LUCILLE JEROME—^^^———^^—-^—^—
Transaction First ClaimNumber Number Township(s) l Area(s) Status Approval Date
W0060.00380 1241373 BYNG Approval October 24,2000
Section:14 Geophysical MAG 14 Geophysical EM
At the discretion of the Ministry, the assessment work performed on the mining lands noted in this work report may be subject to inspection and/or investigation at any time.
Correspondence to: Recorded Holder(s) and/or Agent(s):Resident Geologist John C. GrantSouth Porcupine, ON TIMMINS, ONTARIO, CANADA
Assessment Files Library RITA MARIA LECOURS Sudbury, ON HEARST, ONTARIO
GERALD WON LECOURS FORT MCMURRAY, ALBERTA
BYNG PROPERTIES INC. HEARST, ONTARIO
Page: 1
Correspondence ID: 15376
Min
nipu
ka T
wp.
Cro
mle
ch T
wp
Eric
son
Tw
p
ROADS
TL 900 N
BASELI
TL 500'S
TL 1000
N
ROADS
ITL 500 S
1000 S
aoo
SCALE (n)
42B13NE2002 2 .20567 BYNG 210
LEGENDInstrument: SCINTREX ENVI MAG, BRGM QMNI-IVParameters Measured: Earth's total magnetic fieldAccuracy: ±/- Q ,i nano-teslasDiurnalsi Corrected by base station recorderContour Interval: 0,50,100,150,200..,,,,.Reference Field: 58,060 gamnasDatum Subtracted: 58,000 gammas
EXSICS EXPLORATION LTDP.O. Box 1880, P4N-7X1Suite 1 3, Hollinger Bldg, Timmins Ont,Telephone: 705-267-4151. 267-2424
CLIENT: BYNG PROPERTIES INC.PROPERTY: BYDG TOWNSHIP,LECOURS CLAIMS TITLE:
MAGNETOMETER SURVEDate: August.2000Drawn:J.C.Grant
Scale: 1:5000Intero: J.C.Grant
NTS:Job No.:E-385
o o o o O
OO O
o o o
COoCD
OdoCD
o oen oCD
enCD CD
CD CD
CDCD
ho O O
CD CD
CDCD
CD CD
CD CD
O O
OCD
CT)CD CD
CD CD
CD
oo o om
coCD CD
CD CD CD
CD CD
m
K? CD O
CD O
O CD
L 900 N| ^-,-,-i^"
L 500 S
L 1000 S BU-,-t
Ooex o o
ro CDCD
oCD
CD O CD
COo o
CO CDo
CD CD
CD CD O
en CD O
CD CD
Oo
O CD
CD O
CDOom
O O
oCD
CD CD
enCD CD
CD CD CD
O om
ooCD CD
COCD CD
CD OCD
CDCD
ISOo om
CrJ
O CD
rn
OCD
m
50 JOO 150 200
SCALE
900 N
N
o
500 S2. 20567
MAX-MIN H
- -t-as ,
'O
-10
+15-
- Conductor Axis
- -5-N+5
L 1000 S
LEGENDInslrunenti Apex Parune-trics Max-Mn It Modei Maximum Coupled, Horizontal Loop Survey Paraneter-s Measured' Inphase (X)
Out of phase (X) Frequency 444 HZ Coll Seperationi 150 METERS Operator. J.D.DERVEDUVEN Profile Scale* Icm^/-!!^
42B13NE2002 2.20567 BYNG 220
EXSICS EXPLORATION LTDP.O. Box 1880, P4N-7X1Suite 13, Hollinger Bldg, Timmins Ont.Telephone: 705-267-4151, 267-2424
CLIENT: BYNG PROPERTIES INC.PROPERTY: BYNG TOWNSHIP
HLEM SURVEY, 444 HZ
Date: SEPT. 2000Drawn:J.C.Grant
Scale: 1:5.000Interp: J.C.Grant
NTS:Job No.: E-385
-l-" Tl ' l l "fF" ̂ l l l l l l l lat pi -j CTI o 01 (ji ^J^ en (Ji tn tn CTI oi en-H-lr-'--f— -r-'-H-T -^ -d - x Tit -d - T - '~
L i --^ ~~ -L, — L i dr -*^ 01 os O*- o*
Ap*x Porofie-trics Kdx-Mln 11 Modei Maxlnun Coupleci Horizontal Loop Su-vey Par-aneters Measured' Inphose C/.)
Out of phase (X) Frpquencyi 1777 HZ Coil Separation. 150 METERS Dpcratort J.D.DERWEDUVEN Profile Scald lcp|=+/-10•/.
L 1000 S L 1000 S
EXSICS EXPLORATION LTDP.O. Box 1880, P4N-7X1Suite 13, Hollinger Bldg, Timmins Ont.Telephone: 705-267-4151, 267-24S4
CLIENT: BYNG PROPERTIES INC.PROPERTY: BYNG TOWNSHIP
HLEM SURVEY, 1777 HZ
Date: SEPT. 2000 Scale: 1:5,000Drawn: J.C.Grant Interp: J.C.Grant Job No.: E-385